U.S. patent application number 15/555988 was filed with the patent office on 2018-03-01 for button back and button.
This patent application is currently assigned to YKK Corporation. The applicant listed for this patent is YKK Corporation. Invention is credited to Daisuke Hayashi, Akio Kobayashi, Takuto Ogushi, Noboru Shimizu.
Application Number | 20180055151 15/555988 |
Document ID | / |
Family ID | 57584869 |
Filed Date | 2018-03-01 |
United States Patent
Application |
20180055151 |
Kind Code |
A1 |
Hayashi; Daisuke ; et
al. |
March 1, 2018 |
Button Back and Button
Abstract
A button back which makes it possible to form the front surface
of a button to be a circular shape; a shell cap hard to be rotated;
and an umbrella part hard to be deformed. The button back is made
of metal, including a cylindrical part and an umbrella part
extending radially outward from one axial end of the cylindrical
part. The umbrella part includes a first bending part which extends
radially outward from the one axial end of the cylindrical part and
then bends on the opposite side of the cylindrical part. An outer
periphery, including a radially outer end, of the first bending
part has a polygonal shape including at least three corners and
sides which extend between two circumferentially adjacent corners.
The umbrella part includes flat plates extending radially outward
from the radially outer end, corresponding to the sides, of the
first bending part.
Inventors: |
Hayashi; Daisuke; (Toyama,
JP) ; Shimizu; Noboru; (Toyama, JP) ; Ogushi;
Takuto; (Toyama, JP) ; Kobayashi; Akio;
(Toyama, JP) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
YKK Corporation |
Tokyo |
|
JP |
|
|
Assignee: |
YKK Corporation
Tokyo
JP
|
Family ID: |
57584869 |
Appl. No.: |
15/555988 |
Filed: |
June 23, 2015 |
PCT Filed: |
June 23, 2015 |
PCT NO: |
PCT/JP2015/068100 |
371 Date: |
September 6, 2017 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A44B 1/28 20130101; A44B
1/02 20130101 |
International
Class: |
A44B 1/02 20060101
A44B001/02; A44B 1/28 20060101 A44B001/28 |
Claims
1. A metallic button back comprising a cylindrical part and an
umbrella part extending radially outward from one axial end of the
cylindrical part, wherein the umbrella part includes a first
bending part which extends radially outward from the one axial end
of the cylindrical part and then bends on the opposite side of the
cylindrical part, wherein an outer periphery, including a radially
outer end, of the first bending part has a polygonal shape
including at least three corners and sides which extend between two
circumferentially adjacent corners, wherein the umbrella part
includes flat plates extending radially outward from the radially
outer end, corresponding to the sides, of the first bending
part.
2. The button back according to claim 1, wherein the flat plates
define a circumference of a perfect circle passing each of the
corners.
3. The button back according to claim 1, wherein the outer
periphery of the first bending part has a polygonal shape including
eight to twelve corners.
4. The button back according to claim 1, wherein the first bending
part has a curvature radius less than or equal to 1 mm.
5. The button back according to claim 1, wherein a length of each
of the flat plates extending from the first bending part is longest
at the midpoint of each of the sides and gradually reduced towards
both corners at both ends of each of the sides.
6. The button back according to claim 1, wherein the button back is
made of aluminum or aluminum alloy.
7. A metallic button including a metallic button back and a
metallic shell cap, which is attached to the button back, wherein
the button back comprises a cylindrical part and an umbrella part
extending radially outward from one axial end of the cylindrical
part, wherein the umbrella part includes a first bending part which
extends radially outward from the one axial end of the cylindrical
part and then bends on the opposite side of the cylindrical part,
wherein an outer periphery, including a radially outer end, of the
first bending part has a polygonal shape including at least three
corners and sides which extend between two circumferentially
adjacent corners, wherein the umbrella part includes flat plates
extending radially outward from the radially outer end,
corresponding to the sides, of the first bending part, wherein the
shell cap comprises a disk part defining a front surface of the
button and a second bending part, which is bent from the radially
outward end of the disk part to be attached to a radially outer end
portion of the umbrella part of the button back, wherein a degree
of bending of the second bending part of the shell cap is greater
at each of the sides of the first bending part than at each of the
corners.
8. The button according to claim 7, wherein the flat plates define
a circumference of a perfect circle passing each of the
corners.
9. The button according to claim 7, wherein attached states of the
second bending part of the shell cap change alternately in the
circumferential direction.
10. The button according to claim 7, wherein bending angles of the
second bending part of the shell cap are different between in
portions of the second bending part corresponding to the sides and
in portions thereof corresponding to the corners, and wherein, in
the portions corresponding to the sides, there is a gap between the
second bending part and the sides.
11. The button according to claim 7, wherein the first bending part
includes vertical portion substantially parallel to the axial
direction of the button back, the vertical portion extending to the
radially outer end of the first bending part, and wherein the
second bending part of the shell cap is at least partially in
contact with the vertical portion.
Description
TECHNICAL FIELD
[0001] This invention relates to a button back and a button, and
more particularly to a button back that is commonly used for jeans,
etc. and a button using such a button back.
BACKGROUND ART
[0002] As a button that is commonly used for jeans, jean jacket,
etc., a type of a button is known, which has a generally
cylindrical barrel and a head expanding in a disk form at one end
of the barrel, wherein the head is taken in and out through a
buttonhole. Such a button is disclosed in, for example, US Patent
Application Publication No. 2007/0226959 (Patent Document 1). This
type of button comprises three parts, namely, a button back and a
shell cap, which are metallic outer shell parts and an insert,
which is a resin or metallic core part. The button back comprises a
cylindrical part defining a periphery wall of the barrel of the
button and an umbrella part extending radially outward from one end
of the cylindrical part, defining a back side wall of the head of
the button. Generally, a radially outward end portion of the
umbrella part is pressed so as to bend on the opposite side of the
cylindrical part. Thereby, the umbrella part is given a thickness
for a part of the insert corresponding to the head to be placed,
and the strength of the umbrella part is increased. The shell cap
comprises a disk part defining a front side wall of the head of the
button and a bending part which is bent from the radially outward
end of the disk part on the back side of the head. The bending part
is deformed to be attached a curved, radially outward end portion
of the umbrella part of the button back. The front surface of the
disk part of the shell cap becomes the front surface of the head of
the button, and generally onto this surface, logos or designs are
added, which comprise characters, figures, symbols or the like with
orientations thereof in the circumferential direction have been
set. Such a button is mounted to jeans or the like with the
predetermined orientation.
[0003] If a shell cap with an oriented logo or the like on the
surface as mentioned above is rotated, namely circumferentially
displaced with respect to the umbrella part of a button back after
the shell cap was attached to the umbrella part, then the logo or
the like is displaced from the predetermined orientation. Further,
even if a shell cap has no orientation, it is not preferable that
the shell cap can be rotated in use from the aspect of product
quality. To prevent such a shell cap from being rotated, the Patent
Document 1 suggests that the outer periphery of an umbrella part of
a button back is formed in a polygonal shape (see FIG. 9 of the
document) in order to make the corners of the polygonal shape work
as resistances to rotating of the shell cap. In this case, however,
there is a problem that it is hard to form the front surface of the
button to be a beautiful circle since the bending part of the shell
cap is deformed along the polygonal shape of the umbrella part.
[0004] As another button back having a function of preventing the
shell cap from rotating, one is known in which a plurality of bumps
are circumferentially provided on a curved, radially outward end
portion of the umbrella part as resistances to rotating of the
shell cap. However, to form such bumps, a die becomes complicated,
increasing production costs. Further, to reduce material costs of
the button, button backs have been produced using aluminum or
aluminum alloy instead of conventional brass, recently. In a case
of a button back made of aluminum or aluminum alloy, even if the
above-mentioned bumps are provided on the radially outward end
portion of the umbrella part, the shell cap may rotate for the
following reason. That is, the radially outward end portion itself
of the umbrella part is easily deformed with the shell cap attached
to the radially outward end portion, and when the umbrella part is
deformed, the attachment force will be lowered, resulting in
rotating of the shell cap.
CITATION LIST
Patent Literature
[PTL 1] WO2007/0226959
Solution of the Problem
[0005] Accordingly, an object of the present invention is to
provide a button back, with which it would be possible to form the
front surface of a button to be a beautiful circular shape; a shell
cap would be hard to be rotated; and an umbrella part would be hard
to be deformed, and to provide a button using such a button
back.
SUMMARY OF INVENTION
[0006] To solve the above-mentioned problems, according to one
aspect of the present invention, there is provided a metallic
button back comprising a cylindrical part and an umbrella part
extending radially outward from one axial end of the cylindrical
part, wherein the umbrella part includes a first bending part which
extends radially outward from the one axial end of the cylindrical
part and then bends on the opposite side of the cylindrical part,
wherein an outer periphery, including a radially outer end, of the
first bending part has a polygonal shape including at least three
corners and sides which extend between two circumferentially
adjacent corners, wherein the umbrella part includes flat plates
extending radially outward from the radially outer end,
corresponding to the sides, of the first bending part.
[0007] In the invention, the button back is made of metal such as
copper or copper alloy, aluminum or aluminum alloy, zinc or zinc
alloy, nickel or nickel alloy, and the like, but not limited
thereto. Further, as described later, the button back can be made
of aluminum or aluminum alloy to reduce the cost of material.
[0008] The button back in accordance with the invention, the first
bending part, the outer periphery of which becomes a polygonal
shape including at least three corners and at least three sides,
and the flat plates, which extend from the radially outer end of
each of the sides, are provided in the umbrella part. With a
combination of the bending part and the flat plates, it would be
possible to enhance the strength or rigidity of the umbrella part.
Thus, even if a button back is made of aluminum or aluminum alloy,
which is more deformable than brass, it would be possible to make
its umbrella part hard to be deformed. The first bending part can
be a part bent in a curved manner, for example, but not limited
thereto.
[0009] In an embodiment of the invention, the flat plates define a
circumference of a perfect circle passing each of the corners. In
this case, a radial length of each flat plate extending radially
outward from the radially outer end of the first bending part is
substantially zero at each of the corners and becomes longest at
the circumferential midpoint of each of the sides, which is the
midpoint between two circumferentially adjacent corners. In this
embodiment, the radially outer end of the umbrella part of the
button back forms a perfect circle by the flat plates. Thus, when a
second bending part of the shell cap is attached to the radially
outer end portion of the umbrella part of the button back, the
second bending part of the shell cap can be bent in a perfect
circular manner along the outer periphery of the flat plates.
Thereby, the front surface of the button tends to be a beautiful
circular shape.
[0010] The second bending part of the shell cap is deformed to
contact of the first bending part of the umbrella part of the
button back. Then, since there are the flat plates for the sides in
the polygonal shape of the first bending part while there are
substantially no flat plates for the corners, a degree of bending
of the second bending part of the shell cap becomes smallest at
each of the corners of the first bending part and largest at the
circumferential midpoint of each of the sides. In this way, a
degree of bending of the second bending part of the shell cap
changes alternately in the circumferential direction with the
corners and the sides, and thereby, the shell cap will be hard to
be rotated with respect to the umbrella part.
[0011] In an embodiment of the invention, the outer periphery of
the first bending part is a polygon with eight to twelve corners.
It has been found through tests and the like that the optimal
polygonal shape that contributes to enhance the strength or
rigidity of the first bending part of the umbrella part is based on
button sides as follows:
[0012] 22L (The diameter of a completed button; L=0.635 mm):
dodecagon
[0013] 24L: octagon
[0014] 27L: octagon
[0015] 28L: octagon
[0016] 30L: decagon
[0017] 32L: decagon
[0018] In a case where the first bending part is between an octagon
and a dodecagonal, at least the radially outer end portions of the
corners and the sides of the first bending part are covered between
the circle defined by the radially outer end of the flat plates of
the umbrella part of the button back and the circle defined by the
radially inner end of the second bending part of the shell cap
after being attached to the first bending part of the umbrella
part. Thereby, the shell cap can be securely attached.
[0019] In an embodiment, the first bending part has a curvature
radius less than or equal to 1 mm. In the invention, the curvature
radius of the first bending part can be set to be the same for both
the corners and the sides. Lower limit of the curvature radius of
the first bending part is the thickness of the first bending part,
for example 0.3 mm. In this way, by making the bending of the first
bending part relatively steep, the second bending part of the shell
cap can be securely attached in comparison with relatively gentle
bending of the first bending part. Further, in a case where the
curvature radius of the first bending part is less than 0.1 mm, the
corners of the first bending part contact the second bending part
of the shell cap in a manner where each of the corners of the first
bending part works as an edge, so it can be expected to increase an
effect of preventing the shell cap from being rotated. If the
curvature radius of the first bending part exceeds 0.1 mm, the
second bending part of the shell cap would be bent more than
necessary, or a gap between the attached second bending part and
the first bending part would be too large. In the latter, the shell
cap would be easily rotated with respect to the umbrella part.
[0020] In an embodiment, a length of each of the flat plates
extending from the first bending part is longest at the midpoint of
each of the sides and gradually reduced towards both corners at
both ends of each of the sides. A length of each of the flat plates
extending from each of the sides is a length in the direction
perpendicular to the corresponding one of the sides. A length of
each of the flat plates extending from each of the sides is longest
at the midpoint of each of the sides (the circumferential midpoint
of each side) and gradually reduced towards both corners at both
ends of each of the sides.
[0021] In an embodiment, the button back is made of aluminum or
aluminum alloy. By making the button back of aluminum or aluminum
alloy, it would be possible to reduce material costs compared to
brass and to make it hard to be deformed. Further, by providing the
umbrella part with the first bending part having the polygonal,
outer periphery and the flat plates extending from the radially
outer end of each of the sides of the first bending part, it would
be possible to enhance the strength or rigidity of the umbrella
part and to increase an effect of preventing the shell cap from
being rotated.
[0022] According to another aspect of the present invention, there
is provided a metallic button including a metallic button back and
a metallic shell cap, which is attached to the button back, wherein
the button back comprises a cylindrical part and an umbrella part
extending radially outward from one axial end of the cylindrical
part, wherein the umbrella part includes a first bending part which
extends radially outward from the one axial end of the cylindrical
part and then bends on the opposite side of the cylindrical part,
wherein an outer periphery, including a radially outer end, of the
first bending part has a polygonal shape including at least three
corners and sides which extend between two circumferentially
adjacent corners, wherein the umbrella part includes flat plates
extending radially outward from the radially outer end,
corresponding to the sides, of the first bending part, wherein the
shell cap comprises a disk part defining a front surface of the
button and a second bending part, which is bent from the radially
outward end of the disk part to be attached to a radially outer end
portion of the umbrella part of the button back, wherein a degree
of bending of the second bending part of the shell cap is greater
in each of the sides of the first bending part than in each of the
corners.
[0023] The button in accordance with the invention uses the button
back in accordance with the aforementioned invention, and has a
feature that a degree of bending of the second bending part of the
shell cap is greater in each of the sides of the first bending part
than in each of the corners. In this way, a degree of bending of
the second bending part of the shell cap changes alternately in the
circumferential direction with the corners and the sides, the sell
cap will be hard to be rotated with respect to the button back.
[0024] In the invention, the button back is made of metal such as
copper or copper alloy, aluminum or aluminum alloy, zinc or zinc
alloy, nickel or nickel alloy, and the like, but not limited
thereto.
[0025] In an embodiment, the flat plates define a circumference of
a perfect circle passing each of the corners. In this case, a
radial length of each flat plate extending radially outward from
the radially outer end of the first bending part is substantially
zero at each of the corners and becomes longest at the
circumferential midpoint of each of the sides, which is the
midpoint between two circumferentially adjacent corners. In this
embodiment, the radially outer end of the umbrella part of the
button back forms a perfect circle by the flat plates. Thus, when a
second bending part of the shell cap is attached to the radially
outer end portion of the umbrella part of the button back, the
second bending part of the shell cap can be bent in a perfect
circular manner along the outer periphery of the flat plates.
Thereby, the front surface of the button tends to be a beautiful
circular shape.
[0026] In an embodiment of the invention, attached states of the
second bending part of the shell cap change alternately in the
circumferential direction. That is, the bending part of the shell
cap has different attached forms between in the portions of the
bending part attached to the corners and in the portions attached
to the sides. Such differences of attached forms are made
alternately in the circumferential direction by the corners and the
sides. Thereby, shell cap will be hard to be rotated with respect
to the umbrella part of the button back.
[0027] In an embodiment of the invention, bending angles of the
second bending part of the shell cap are different between in
portions of the second bending part corresponding to the sides and
in portions thereof corresponding to the corners, and wherein, in
the portions corresponding to the sides, there is a gap between the
second bending part and the sides.
[0028] In an embodiment of the invention, the first bending part
includes vertical portion substantially parallel to the axial
direction of the button back, the vertical portion extending to the
radially outer end of the first bending part, and wherein the
second bending part of the shell cap is at least partially in
contact with the vertical portion. When the second bending part of
the shell cap is deformed to be attached to the first bending part
of the umbrella part of the button back, by making the second
bending part at least partially in contact with the vertical
portion of the first bending part, it is expected that the shell
cap will be still harder to be rotated.
Advantageous Effects of Invention
[0029] In the invention, by providing the umbrella part with the
first bending part having a polygonal outer periphery with three or
more corners and sides and with the flat plates extending from the
radially outer end of each of the sides of the first bending part,
it would be possible to enhance the strength or rigidity of the
umbrella part. Further, a degree of bending, bending angles, and
attached forms of the first bending part of the shell cap change
alternately in the circumferential direction with the corners and
the sides. Thereby, the shell cap will be hard to be rotated with
respect to the button back. Furthermore, when the flat plates has a
perfect, circular circumference passing each of the corners, the
radially outer end of the umbrella part of the button back becomes
a perfect, circular shape by the flat plates. Thereby, when the
second bending part of the shell cap is attached to a radially
outer end portion of the umbrella part of the button back, the
bending part of the shell cap can be bent in a perfect circular
manner along the outer periphery of the flat plates. Thereby, the
front surface of the button tends to be a beautiful circular
shape.
BRIEF DESCRIPTION OF DRAWINGS
[0030] FIG. 1 shows a bottom view of a button in accordance with
one embodiment of the invention.
[0031] FIG. 2 shows a cross sectional view taken along A-A line in
FIG. 1.
[0032] FIG. 3 shows a cross sectional view taken along B-B line in
FIG. 1.
[0033] FIG. 4 shows a perspective view of the button back.
[0034] FIG. 5 shows a bottom view of the button back.
[0035] FIG. 6 shows a cross sectional view taken along A-A line in
FIG. 5.
[0036] FIG. 7 shows a cross sectional view taken along B-B line in
FIG. 5.
[0037] FIG. 8 is an enlarged view showing an attached state of the
shell cap in a cross section corresponding to one of the corners of
the bending part of the umbrella part.
[0038] FIG. 9 is an enlarged view showing an attached state of the
shell cap in a cross section corresponding to the midpoint of one
of the sides of the bending part of the shell cap.
[0039] FIG. 10 shows a cross sectional view of a button fastener,
which is used for mounting the button to a fabric.
DESCRIPTION OF EMBODIMENTS
[0040] Hereinafter, a button back in accordance with an embodiment
of the invention will be described with referring to the drawings.
However, this invention is not limited to the embodiment, and it
can be modified or altered within the scope of the invention and
within the range of equivalents. FIG. 1 shows a bottom view of a
button 1 in accordance with one embodiment of the invention. FIGS.
2 and 3 are cross sectional views taken along A-A line and B-B line
in FIG. 1, respectively. In the following descriptions, the
up-and-down direction is based on FIGS. 2 and 3, etc. The button 1,
which is commonly used for jeans, etc., has a generally cylindrical
barrel 1a and a head 1b expanding radially outward in a disk form
on the upper end side of the barrel 1a. The button 1 is a type in
which the head 1b is taken in and out through a buttonhole (not
shown). The button comprises three parts, namely, a button back 10
and a shell cap 2, which are metallic outer shell parts and an
insert 3, which is a resin or metallic core part. The button back
10 is in accordance with the invention. In this embodiment, as an
example, the button back 10 is made of aluminum alloy; the shell
cap 2 is made of brass; and the insert 3 is made of resin, but they
are not limited thereto. The shell cap 2 comprises a disk part 2a
defining a front surface of the button 1 and an annular second
bending part 2b (hereinafter referred to simply as "bending part
2b"), which is bent downward from the radially outward end of the
disk part 2a. The bending part 2b is to be attached to an umbrella
part 20 as described later of the button back 10. Although not
shown, onto an upper surface of the shell cap 2, namely, the front
surface of the button 1, logos or designs are added, which comprise
characters, figures, symbols or the like with orientations thereof
in the circumferential direction. Thus, when the button 1 is
mounted to a fabric, it is needed to arrange the logs, etc. in the
predetermined orientation. The insert 3 comprises a cylindrical
barrel core 3a, which is housed in the cylindrical part 11 of the
button 1, a head core 3b, which radially expands from the barrel
core 3a and is housed in the head 1b, and an engagement space 3c,
which receives and then fixes a shank 32 of a button fastener 30
(see FIG. 10) as described later when the button 1 is mounted to a
fabric. In the embodiment, the engagement space 3c is formed as a
through-bore. The engagement space 3c is a space whose diameter is
less than the diameter of the shank 32. The diameter of the
engagement space 3c of the insert 3 expands at two stages from the
bottom to the top, and the insert 3 has corresponding steps on the
inner surface. The barrel core 3a includes, at its lower end
portion, a small diameter portion 3d, which extends downward
through an opening 12 of the cylindrical part 11 as mentioned later
of the button back 3. Further, on the bottom surface of the small
diameter portion 3d, a cross-shaped convexity is provided, which is
convex downward.
[0041] FIGS. 4 and 5 are perspective view and bottom view of the
button back 10. FIGS. 6 and 7 are cross sectional views taken along
A-A line and B-B line in FIG. 5. The button back 10 is formed by
shaping a plate of aluminum or aluminum alloy having a thickness of
about 3 mm. The button back 10 comprises a cylindrical part 11
defining a periphery wall of the barrel 1a of the button 1 and an
umbrella part 20 extending radially outward from the upper end of
the cylindrical part 20, defining a back side wall of the head 1b
of the button 1. The cylindrical part 11 is open upward and has an
opening 12 at the lower end. At the lower end of the cylindrical
part 11, eight protrusions 13 slightly protruding radially outward
in the circumferential direction are provided. With the protrusions
13. The diameter of the opening 12 is slightly reduced, and the
small diameter portion 3d of the barrel core 3a of the insert 3
will extend downward through the reduced opening 12 by press
fitting.
[0042] The umbrella part 20 comprises an annular base 21, which
extends substantially horizontally ("horizontal" means a direction
along any plane perpendicular to the axis of the cylindrical part
11) and radially outward from the upper end of the cylindrical part
11; an annular step 22, which slightly drops downward and radially
outward from the radially outer end of the base 21; a bending part
23 as a first bending part, which extends substantially
horizontally and radially outward from the lowest end of the step
22 and then curves upward; and flat plates 25, which further extend
substantially horizontally, radially outward and partially from the
radially outer end of the bending part 23. The curvature radius R1
of the bending part 23 is set in such a manner that R1 is less than
or equal to 1 mm. Referring to the enlarged views of FIGS. 8 and 9,
the bending part 23 includes a horizontal portion 23a extending
substantially horizontally and radially outward from the lower end
of the step 22, and a vertical portion 23b substantially parallel
to the axial direction, extending to the radially outer end (upper
end) of the bending part 23. Further, referring to FIG. 9, in the
regions corresponding to sides 24b, the curvature radius R2 between
the vertical portion 23b of the bending part 23 and each of the
flat plates 25 is 0.3 mm, namely R2=0.3 mm, but not limited
thereto.
[0043] In this embodiment, the outer periphery, including the
radially outer end, of the bending part 23 has a regular octagonal
shape as an example, having eight corners 24a and eight sides 24b,
each of which extends between two circumferentially adjacent
corners 24a. The curvature radius of the corners 24a and the
curvature radius of the sides 24b are the same R1 less than or
equal to 1 mm. The flat plates 25 define the circumference of a
perfect circle passing the radially outer end (upper end) of each
of the corners 24a. Thus, a radial length of each flat plate 25
extending radially outward from the radially outer end of the
bending part 23 is substantially zero (or slight in some cases) at
each corner 24a and becomes longer gradually from each corner 24a
to the midpoint (hereinafter referred to as "side midpoint") 24c
(see FIG. 5) of each side 24b between both corners 24a in the
circumferential direction, becoming longest at the side midpoint
24c. In other words, a length of each flat plate 25 extending from
each side 24b is longest at the midpoint of each side 24b and
gradually reduced towards both corners 24a adjacent to the
corresponding side. A length of each flat plate 25 extending from
each side 24b is a length in the direction perpendicular to each
side 24b. The B-B lines in FIGS. 1 and 5 pass side midpoints
24c.
[0044] When the button back 10, the shell cap 2 and the insert 3
are assembled into the button 1, the barrel core 3a of the insert 3
is inserted in the cylindrical part 11 of the button back 10, the
mall diameter portion 3d is protruded through the opening 12 of the
cylindrical part 11. Thereby, the head core 3b of the insert 3 is
disposed on the base 21 of the umbrella part 20 of the button back
10. From this state, the shell cap 2 is attached to the umbrella
part 20 of the button back 10 from the upper side of the head core
3b of the insert 3. That is, the bending part 2b of the shell cap 2
is bent downward from the radially outward end of the disk part 2a
and deformed to be attached to the bending part 23 of the umbrella
part 20 of the button back 10 from the radially outer side. At this
time, since the radially outer end of the umbrella part 20 with the
flat plates 25 has a perfect round shape, the bending part 2b of
the shell cap 2 is bent from the disk part 2a in a manner of the
perfect round shape. Thus, the front surface of the button 1
becomes a beautiful circle. Attached states of the bending part 2b
of the shell cap 2 are different between in the corners 24a and in
the sides 24b of the bending part 23.
[0045] FIG. 8 is an enlarged view showing an attached state of the
bending part 2b of the shell cap 2 in a cross section corresponding
to one of the corners 24a of the bending part 23. FIG. 9 is an
enlarged view showing an attached state of the bending part 2b of
the shell cap 2 in a cross section corresponding to the midpoint
24c of one of the sides 24b of the bending part 23. In this
embodiment, the lower end of the attached bending part 2b of the
shell cap 2 is in contact with the regular octagonal outer
periphery of the bending part 23 of the button back 10. The lower
end of the bending part 2b extends to slightly lower than the
vertical portion 23b of the bending part 23 but does not extend to
the horizontal portion 23a. The bending angle of the bending part
2b of the shell cap 2 with respect to the disk part 2a is
substantially the smallest at each of the corners 24a without the
flat plate 25, while the angle is substantially the largest at each
of the side midpoint 24c at which the radial length of each of flat
plates 25 is longest. In this way, the attached states of the
bending part 2b of the shell cap 2 change alternately in the
circumferential direction with the corners 24a and the sides 24b.
Thereby, once the shell cap 2 is attached to the umbrella part 20
of the button back 10, the cap 2 is hard to be rotated with respect
to the umbrella part 20.
[0046] With reference to FIG. 8, the bending part 2b of the shell
cap 2 is substantially in surface-contact with the vertical portion
23b in the cross section corresponding to each of the corners 24a
of the bending part 23. On the other hand, as shown in FIG. 9, in
the cross section corresponding to each of the side midpoints 24c
of the bending part 23, there is a gap s between the bending part
2b of the shell cap 2 and the vertical portion 23b, and the bending
part 2b is substantially not in contact with the vertical portion
23b or the lower end of the bending part 2b is in point-contact
with the vertical portion 23b. In this way, by making the bending
part 2b of the shell cap 2 in surface contact with the vertical
portion 23b of the bending part 23 at the circumferential locations
corresponding to the respective corners 24a of the bending part 23.
Hence, it is expected that a function of preventing the shell cap
form being rotated with respect to the umbrella part of the button
back 10 will further enhance.
[0047] As can be seen from FIG. 1 showing the bottom of the button
1 and FIGS. 2 and 3, the radially inner end 2c of the attached
bending part 2b of the shell cap 2 is in contact with, in the whole
circumferential direction, the corners 24a and the sides 24b of the
bending part 23 of the button back 10. In other words, at least
radially outer end portions of the corners 24a and the sides 24b
are covered between the circle defined by the radially outer end of
the flat plates 25 of the umbrella part 25 of the button back 10
and the circle defined by the radially inner end 2c of the bending
part 2b of the shell cap 2 after being attached to the bending part
23 of the button back 10 in the whole circumferential direction.
Therefore, the shell cap 2 can be securely attached.
[0048] FIG. 10 is a cross sectional view of the above-mentioned
button fastener 30, which is used for mounting the above-described
button 1 to a fabric of jeans or the like (not shown). The button
fastener 30 comprises a disk-like base 31 and a shank 32 extending
upward from a center region of the base 31, the shank 32 having a
sharp tip. When the button 1 is mounted to a fabric, logos or the
like on the front surface of the button 1 is oriented in a
predetermined circumferential orientation. Then, the shank 32 of
the button fastener 30 is passed through a fabric and then is
inserted into the engagement space 3c of the insert 3 of the button
1. Thereby, the button 1 is fixed in the fabric. Since a variety of
embodiments of inserts for buttons and button fasteners are known,
the insert 3 and the button fastener 30 are merely one example for
those.
[0049] In the above embodiment, an example is cited where the outer
periphery of the bending part 23 of the umbrella part 20 is a
regular octagon, but the present invention is not limited thereto.
The outer periphery of the bending part may be a triangle, a
quadrangle, a pentagon, a hexagon, a decagon, or a dodecagon or the
like.
REFERENCE SIGNS LIST
[0050] 1 button [0051] 1a cylindrical barrel [0052] 1b head [0053]
2 shell cap [0054] 2a disk part [0055] 2b bending part (second
bending part) [0056] 3 insert [0057] 10 button back [0058] 11
cylindrical part [0059] 20 umbrella part [0060] 23 bending part
(first bending part) [0061] 23b vertical portion [0062] 24a corner
[0063] 24b side [0064] 25 flat plate [0065] 30 button fastener
[0066] s gap
* * * * *